共查询到18条相似文献,搜索用时 125 毫秒
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高赟琴英玉李绍波 《现代生物医学进展》2011,11(6):1178-1180
细胞发生程序性死亡(Programmed cell death,PCD)是多细胞生物用以消除多余的或有害的细胞的一种重要方式。对于植物个体来说,细胞发生程序性死亡(PCD)是抵抗逆境的一种十分有效的途径。因此,揭示环境因子诱导的植物PCD现象的分子本质就具有十分重要的现实意义。近十年来,有关环境因子诱导的植物PCD研究报道逐年增加。本文重点综述了环境因子与植物PCD相关的研究进展,并对植物PCD的主要生物学意义和研究展望进行了讨论。 相似文献
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环境胁迫下的植物细胞程序性死亡及其意义 总被引:5,自引:0,他引:5
从低氧适应、抗病反应、抗盐机制等方面阐明了环境胁迫下的植物细胞程序性死亡(PCD)的普遍性,并就PCD在植物抵御不良环境中的意义进行讨论。 相似文献
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环境胁迫诱导的植物细胞程序性死亡 总被引:24,自引:1,他引:23
在最近的10年中,兴起了对植物细胞程序性死亡的研究。大量的证据表明,在各种环境胁迫因子诱导植物细胞PCD过程中,活性氧、乙烯、Ca2+、水杨酸、NO等成为重要的信号分子。像动物细胞凋亡一样,在植物PCD中也存在一条依赖于天冬氨酸特异性半胱氨酸蛋白酶(Caspases)活性的信号传导途径,其中,线粒体处于PCD调控的中心位置。
Abstract:Programmed cell death (PCD) research in higher plants has blossomed in the past ten years.Many evidences suggested that reactive oxygen species,ethylene,Ca2+,salicylic acid,nitric oxide etc.are important signal molecules during environmental stress-induced PCD in plants.Like apoptosis in animals,there also exists a Caspase-dependent PCD signal transduction pathway,in which mitochondrion plays a role of central depot. 相似文献
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植物细胞程序性死亡(programmed cell death,PCD)是一种由细胞内部程序控制的、主动的细胞死亡过程。在植物发育、逆境胁迫及超敏反应中,PCD都起着重要的作用。为检测植物PCD过程中类似动物细胞凋亡蛋白酶caspase-3的活性,构建了一个能够在活体植物细胞中实时检测类caspase-3蛋白酶激活的质粒PI—ECFP—EYFP。该质粒在植物细胞中可以表达出两端为青色荧光蛋白(ECFP)和黄色荧光蛋白(EYFP)的融合蛋白。这两个荧光蛋白通过含有caspase-3蛋白酶作用靶点DEVD的短肽相连,从而可以根据荧光共振能量转移现象检测类caspase-3凋亡蛋白酶的激活,以为实时检测植物PCD过程中关键蛋白酶的激活及其调控奠定基础。 相似文献
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胱天蛋白酶(caspases)在动物细胞程序性死亡(programmed cell death,PCD)的起始、执行以及信号转导阶段起着关键作用,目前在植物中也发现有类胱天蛋白酶(caspase-like proteases,CLPs)的存在,并确认液泡加工酶(VPEs)、metacaspases和丝氨酸内肽酶(sapases)具有CLPs的作用,并证实CLPs参与植物的生长发育、抗病性及胁迫诱导的细胞程序性死亡等.本文对植物CLPs活性、生化结构及生理作用等方面的研究进展进行综述,并与动物caspases进行比较,为今后CLPs活性调节、作用方式及其在植物细胞程序性死亡中的作用等方面的研究提供参考. 相似文献
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信号分子介导藻类细胞程序性死亡的研究进展 总被引:1,自引:0,他引:1
藻类是水生态系统中的重要初级生产者, 在物质转换和能量迁移过程中发挥重要作用。细胞程序性死亡(PCD)作为一种细胞自我调控的死亡模式, 受到多种信号分子的控制。研究发现藻类细胞在遭受环境胁迫的情况下, 在形态和生理上均表现出类PCD的特征, 同时伴随着活性氧/一氧化氮/钙离子(ROS/NO/Ca2+)水平的变化。研究认为, ROS/NO/Ca2+作为信号分子介导藻细胞内的caspase-like酶活性变化, 从而触发藻细胞的类程序性死亡。然而, 对信号分子是如何在环境胁迫下的藻类细胞中引发类PCD仍知之甚少。文章综述了信号分子ROS/NO/Ca2+介导藻类类PCD的研究进展以及信号分子间的级联关系, 并对今后类PCD在该领域待开展的研究进行了展望。 相似文献
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细胞程序化死亡(PCD)是一种由基因控制的、主动的细胞死亡过程,它在植物正常生长发育过程中起着重要作用。本文就植物PCD的近期研究进展和其分子信号调控机制作一综合阐述。 相似文献
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SA and ROS are involved in methyl salicylate-induced programmed cell death in Arabidopsis thaliana 总被引:1,自引:0,他引:1
Programmed cell death (PCD) is a genetically encoded, active process that results in the death of individual cells, tissues,
or whole organs, which plays an important role in the life cycles of plants and animals. Previous studies show that methyl
salicylate (MeSA) is a defense signal molecular associated with systemic acquired resistance and hypersensitive reaction;
however, whether MeSA can induce PCD in plant is still unknown. The morphological changes of Arabidopsis thaliana protoplasts exposed to MeSA were observed under fluorescence microscopy and transmission electron microscopy, and the induction
of PCD was clearly distinguished by intense perinuclear chromatin margination, condensation of nuclear chromatin and DNA laddering
after 3-h exposure of 100 μM MeSA. Our results also showed that salicylic acid (SA) was involved in MeSA-induced PCD by using
a transgenic nahG
Arabidopsis thaliana line, and the process was mediated by reactive oxygen species, which functioned with SA by making an amplification loop.
Our study showed that MeSA could induce PCD in plant cell for the first time. 相似文献
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Errakhi R Meimoun P Lehner A Vidal G Briand J Corbineau F Rona JP Bouteau F 《Journal of experimental botany》2008,59(11):3121-3129
Oxalic acid is thought to be a key factor of the early pathogenicity stage in a wide range of necrotrophic fungi. Studies were conducted to determine whether oxalate could induce programmed cell death (PCD) in Arabidopsis thaliana suspension cells and to detail the transduction of the signalling pathway induced by oxalate. Arabidopsis thaliana cells were treated with millimolar concentrations of oxalate. Cell death was quantified and ion flux variations were analysed from electrophysiological measurements. Involvement of the anion channel and ethylene in the signal transduction leading to PCD was determined by using specific inhibitors. Oxalic acid induced a PCD displaying cell shrinkage and fragmentation of DNA into internucleosomal fragments with a requirement for active gene expression and de novo protein synthesis, characteristic hallmarks of PCD. Other responses generally associated with plant cell death, such as anion effluxes leading to plasma membrane depolarization, mitochondrial depolarization, and ethylene synthesis, were also observed following addition of oxalate. The results show that oxalic acid activates an early anionic efflux which is a necessary prerequisite for the synthesis of ethylene and for the PCD in A. thaliana cells. 相似文献
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Hypersensitive response-related death 总被引:39,自引:0,他引:39
Heath MC 《Plant molecular biology》2000,44(3):321-334
The hypersensitive response (HR) of plants resistant to microbial pathogens involves a complex form of programmed cell death (PCD) that differs from developmental PCD in its consistent association with the induction of local and systemic defence responses. Hypersensitive cell death is commonly controlled by direct or indirect interactions between pathogen avirulence gene products and those of plant resistance genes and it can be the result of multiple signalling pathways. Ion fluxes and the generation of reactive oxygen species commonly precede cell death, but a direct involvement of the latter seems to vary with the plant-pathogen combination. Protein synthesis, an intact actin cytoskeleton and salicylic acid also seem necessary for cell death induction. Cytological studies suggest that the actual mode and sequence of dismantling the cell contents varies among plant-parasite systems although there may be a universal involvement of cysteine proteases. It seems likely that cell death within the HR acts more as a signal to the rest of the plant rather than as a direct defence mechanism. 相似文献
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程序性细胞死亡(PCD)是生物体受遗传调控的自主细胞死亡现象, 在植物生长发育和抵抗环境胁迫中起重要作用。PCD的发生可受线粒体中活性氧(ROS)诱导。中国科学院遗传与发育生物学研究所李家洋研究组早期的研究发现了1个拟南芥(Arabidopsis thaliana)细胞死亡突变体mod1, 并暗示植物细胞中存在叶绿体与线粒体之间的信号交流调控PCD, 但其中的具体作用机制尚不清楚。最近, 他们通过大规模筛选mod1突变体的抑制突变体, 克隆了3个新的抑制基因plNAD- MDH、DiT1和mMDH1。此3个基因分别编码质体定位的NAD依赖的苹果酸脱氢酶、叶绿体被膜定位的二羧酸转运蛋白1和线粒体定位的苹果酸脱氢酶1, 突变后都可抑制mod1中ROS的积累及PCD的发生。通过对这些基因进行深入的功能分析, 他们论证了苹果酸从叶绿体到线粒体的转运对线粒体中ROS的产生及随后PCD的诱导起重要作用。该研究拓展了我们对植物细胞中细胞器间交流的认识, 为我们深入理解植物PCD发生机制提供了新线索, 是该领域的一项突破性进展。 相似文献